US3679671A - Oxidation of phenylacetonitrile derivatives employing a copper (ii)-amine catalyst system - Google Patents
Oxidation of phenylacetonitrile derivatives employing a copper (ii)-amine catalyst system Download PDFInfo
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D295/00—Heterocyclic compounds containing polymethylene-imine rings with at least five ring members, 3-azabicyclo [3.2.2] nonane, piperazine, morpholine or thiomorpholine rings, having only hydrogen atoms directly attached to the ring carbon atoms
- C07D295/04—Heterocyclic compounds containing polymethylene-imine rings with at least five ring members, 3-azabicyclo [3.2.2] nonane, piperazine, morpholine or thiomorpholine rings, having only hydrogen atoms directly attached to the ring carbon atoms with substituted hydrocarbon radicals attached to ring nitrogen atoms
- C07D295/14—Heterocyclic compounds containing polymethylene-imine rings with at least five ring members, 3-azabicyclo [3.2.2] nonane, piperazine, morpholine or thiomorpholine rings, having only hydrogen atoms directly attached to the ring carbon atoms with substituted hydrocarbon radicals attached to ring nitrogen atoms substituted by carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals
- C07D295/145—Heterocyclic compounds containing polymethylene-imine rings with at least five ring members, 3-azabicyclo [3.2.2] nonane, piperazine, morpholine or thiomorpholine rings, having only hydrogen atoms directly attached to the ring carbon atoms with substituted hydrocarbon radicals attached to ring nitrogen atoms substituted by carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals with the ring nitrogen atoms and the carbon atoms with three bonds to hetero atoms attached to the same carbon chain, which is not interrupted by carbocyclic rings
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07C—ACYCLIC OR CARBOCYCLIC COMPOUNDS
- C07C255/00—Carboxylic acid nitriles
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D207/00—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom
- C07D207/02—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom
- C07D207/30—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having two double bonds between ring members or between ring members and non-ring members
- C07D207/34—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having two double bonds between ring members or between ring members and non-ring members with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to ring carbon atoms
- C07D207/36—Oxygen or sulfur atoms
- C07D207/38—2-Pyrrolones
Definitions
- the present invention is directed to a method of oxidizing various phenylacetonitrile derivatives.
- the new method utilizes a copper (ID-amine catalyst system with the oxidation being carried out under mild temperature and pressure conditions.
- the copper (II)- amine catalyst system catalyzes the highly specific oxidation of the starting materials to produce large yields of the desired product without attendant tar production.
- the copper (H) amine catalyst system utilized in the method of the present invention is soluble in many common organic solvents thus producing a homogeneous reaction system.
- 2,3-diphenylsuccinonitrile is oxidized (dehydrogenated) to 2,3-diphenylfumaronitrile (yield greater than 70%). Since the precursor 2,3-diphenylsuccinonitrile is conveniently prepared by the condensation ofbenzaldehyde with phenylacetonitrile in the presence of cyanide ion, the production of 2,3-diphenylfumaronitrile from benzaldehyde and phenylacetonitrile can now be carried out much more efficiently than formerly possible.
- the method of the present invention provides a highly specific method of oxidizing phenylacetonitrile derivatives under mild reaction conditions. Furthermore, the method of the present invention provides a new high yield synthesis for preparing new 3-(amine substituted)-2-phenylacrylonitriles and S-(amine substituted)3,5-diphenyl-3-pyrrolin-2-ones.
- the oxidation method of thepresent invention comprises reacting a phenylacetonitrile derivative with a copper (ID-amine catalyst system in a liquid reaction mixture.
- the oxidation takes place in an excess of a primary or secondary amine as reaction medium or in an inert organic solvent as reaction medium.
- the oxidation of the phenylacetonitrile derivatives is carried out at temperatures of between from 40 to 150 C. with temperatures between 20 and 80 C. being preferred.
- R represents hydrogen, alkyl, phenyl, halo, cyano, nitro, lower alkoxy or lower thioalkyl and Z represents hydrogen, phenyl, substituted phenyl, benzoyl, or substituted benzoyl.
- alkyl refers to alkyl moieties having from 1 to 8 carbon atoms, inclusive; halo represents chlorine, bromine, fluorine or iodine; lower thioalkyl and lower alkoxy designate thioalkyl or alkoxy moieties having from 1 to 4 carbon atoms, inclusive; substituted phenyl designates a phenyl moiety bearing a substituent selected from the group defined by R and the term substituted benzoyl designates methylbenzoyl, halobenzoyl or nitrobenzoyl.
- the copper (ID-amine catalyst system is a coordination complex formed by the cupric ion (Cu and a primary or secondary amine.
- the copper (II) component of the copper (ID-amine catalyst system is provided by elemental copper or by any copper salt wherein the copper ion is capable of assuming the copper (II) state and wherein the coordination between the copper (II) and the ligand or chelating agent is weak enough to allow the copper (II) to be reduced to copper (1).
- the copper (II) component of the copper (ID-amine catalyst system can be supplied by adding cuprous salts to the reaction mixture provided the cuprous ion can be oxidized to the copper (II) state by molecular oxygen or other oxygenating species.
- the copper component is added to the reaction mixture in an amount suflicient to provide a catalytic amount of copper (II).
- a catalytic amount of copper (II) is considered to be from about 1 to about 5 mole percent with respect to the phenylacetonitrile derivative.
- the amount of elemental copper or copper salt to be added to the reaction mixture in order to provide the catalytic amount of copper (II) will depend upon how much of the copper (I) produced as a result of the oxidation of the phenylacetonitrile derivatives can be air oxidized back to the copper (II) state.
- the copper component will have to be added to the reaction mixture as a copper (II) containing species, i.e., a cupric salt, and in an amount sufficient to provide a substantially stoichiometric amount of copper (II).
- a copper (II) containing species i.e., a cupric salt
- the reac tion generates catalytic poisons such as CN, which prevent the regeneration of copper (H) by inhibiting the oxidation of copper (I) to copper (II)
- nearly stoichiometric amounts of copper are employed.
- the inhibiting effects of the CN ions are decreased by the addition of a CN scavenger such as ferric ion to the reaction mixture; when such a CN scavenger is employed, the amount of copper employed will range between a catalytic amount and a stoichiometric amount.
- a CN scavenger such as ferric ion
- Representative copper salts include cupric acetate, cupric bromate, cupric bromide, cupric chlorate, cupric chloride, cupric fluoride, cupric formate, cupric nitrate, cupric phosphate, cupric sulfate, cupric tartrate, cuprous bromide, cuprous chloride, cuprous benzoate, cuprous acetate, cupric nitrate pentahydrate cupric stearate and the like.
- amine designates a primary or secondaryamine corresponding to the formula Y H N wherein Y represents lower alkyl or lower hydroxyalkyl and Y represents hydrogen, lower alkyl, or lower hydroxyalkyl and when'Y and Y are alkyl moieties they can be combined to produce a heterocyclic ring, i.e., a hydrogen is removed from each alkyl moiety thereby pro- 'ducing alkylene moieties which are joined to produce a heterocyclic ring with nitrogen as the hetero atom.
- the terms lower alkyl and lower hydroxyalkyl as employed in the present specification and claims designate alkyl or hydroxyalkyl moieties containing from 1 to 4 carbon atoms, inclusive. Representative lower alkyl and lower hydroxyalkyl moieties include methyl, ethyl, propyl, butyl, hydroxymethyl, hydroxyethyl, Z-hydroxypropyl, 3-hydroxypropyl and hydroxybutyl.
- the primary or secondary amine is employed in an amount equivalent to at least twice the molar amount of copper employed.
- the use of the amine in amounts materially less than 2 molar proportions results in very slow oxidation of the phenylacetonitrile derivatives or in the formation of a heterogeneous reaction mixture.
- the cupric ion in its most favorable coordination state prefers coordination to four amine ligands and it is, therefore, preferred that the amine be present in molar amounts equivalent to at least 4 times the amount of cupric ion.
- the primary or secondary amine is employed in an amount equivalent to from 4 to 10 times greater than the theoretical maximum amount of cupric ion available, i.e., all copper in the copper (H) state.
- amines include aziridine, 'piperidine, dibutylamine, methylethylamine, methyl'butylamine, diethylamine, propanolamine, ethanolamine, methylethanolamine, pyrrolidine', and dipropylamine.
- reaction is carried out in a liquid environment comprised of an excess of the primary or secondary amine or a mixture of the primary or secondary amine and an inert or- 'ganic liquid.
- Representative organic liquids suitable as v reaction media include benzene, methanol, dimethylformamide, dimethylsulfoxide, chlorobenzene, and n-hexane. It is convenient and generally preferred that the reaction mixture be agitated in order to increase the rate of contact of the reactants and to increase the air oxidative regeneration of the copper (H) ions.
- the agitation of the reaction mixture can be achieved by any convenient pro,- cedure such as stirring, bubbling oxygen or air through the reaction mixture and the like.
- the temperature of the reaction mixture is maintained within the reaction temperature. range product are obtained by conducting the reaction under atmospheric pressure (760 mm. of Hg). However, increasing the pressure above atmospheric pressure has a favorable efiect on the rate of the reaction.
- the desired product is isolated from the, reaction mixture by conventional isolation procedures.
- an inert organic solvent isvadded to the reaction mixture and the diluted mixture further diluted with water.
- the mixture Upon Qdilu tion with water, the mixture separates into an organic and an aqueous phase.
- the organic phase contains the product and the aqueous phase contains copper hydroxide which has formed during the dilution proc :edu 1 e It is convenient to acidify the aqueous phase in order to dissolve. the copper hydroxide before separating theorganic and aqueous phases.
- the organic and aqueous phases are then separated and the organic phase is stripped in vacuo to remove the low boiling constituents and obtain the desired product as a solid residue.
- These new 3-('amine substituted) -2phen ylacrylonitriles are generally crystalline solids which are insoluble in water and are soluble in' various'comrnon organic solvents such as benzene, diethyletheriand chidroform.
- the 3-(amine substituted)'-2-phenylacrylonitriles are useful as pesticides for the kill and control of various pests such as fungi, bacteria, snails, trash fish, insects and terrestial plants, including Bacillus subtilis, Pullz'tlaria pullular'rs, Salmonella typhosa, pigweeds, plumcurc'ulio, bindweeds and gold fish.
- the new S-(amine substituted)-2-phenylacrylonitrile compounds are prepared in accordance with the new method of the present invention.
- elemental copper or a copper salt as previously described and the amine are admixed with aphenylacetonitrile derivative corresponding to the formula:
- the phenylacetonitrile, amine and copper starting materials are dispersed in an inertorganic liquid reaction media or in an excess of the amine as reaction medium. Nearly stoichiometric amounts of copper or copper salt are employed with respect to the phenylacetonitrile starting material.
- the use of such large" amounts of copper salt is recommended because the catalytic poison, CN, is produced as a reaction by-product. Asprevious lystated, this catalytic poison inhibits-the reoxygenation of the copper ('1) species to copper (II); thus a small amount of copper (II) will not be sufii'cient. to catalyze the oxidation of the phenylacetonitrile starting material.
- Representative 3-(amine substituted)-2-phenylacrylonitrile products include wherein .R, Y and Y are all selected from the group as previously defined. R as employed in the present specification and claims represents methyl, halo and nitro.
- These new S-(amine substituted)-3,5-diphenyl-3- pyrrolin-Z-ones are crystalline solidsand are insoluble in water and soluble in common organic solvents such as chlorobenzene, methylene chloride and acetone.
- the S-(amine substituted)-3,5-diphenyl-3pyrrolin-2-ones are useful as pesticides for the kill andcontrol of various bacteria and fungi including lettuce, 'downy mildew, plum curculio, apple scab and tomato late blight.
- the phenylacetonitrile derivative and the copper are, as in the previous cases, dispersed with the amine in an inert organic solvent as reaction media or in an excess of the amine as reaction media.
- the copper can be added in an amount suflicient to provide from about 1 to about 5 mole percent of copper (II), i.e., when all of the copper is in the copper (II) state, the amount of copper (II) will be equivalent to from about 1 to about 5 mole percent of the phenylacetonitrile starting material.
- the reaction is then carried out and the product is isolated in accordance with the methods previously described.
- the 5 -(ar'niu'e substituted)-3,5-diphenyl-3-pyrrolin-2-one product can then be employed in pesticidal applications or further purified by conventional purification techniques before being so employed.
- Representative S-(amine substituted)- 3,S-diphenyl-3-pyrrolin-2-ones include 5- (diethylamine -3- (4-nitrophenyl) -5-phenyl-3- pyrrolin-Z-one;
- the new method of the present invention can be employed to oxidize 2,3-diphenylsuccinonitrile to 2,3-diphenylfumaronitrile.
- the quantities of starting materials and the reaction procedure are all as previously described.
- Example 1 A solution of a phenyl B benzoylpropionitrile (4.7 g., 0.020 mole) in 15 milliliters of piperidine was injected with a syringe through a rubber septum into a sealed flask containing cuprous chloride (0.15 g., 0.0015 mole) in 10 milliliters of piperidine under oxygen at 760 mm. pressure. The reaction mixture was stirred and maintained at a temperature of 24.5 C. for two hours. During this two-hour period, stirring was continued for an additional 1% hours. During the entire 3.75-hour reaction period, 520 milliliters of oxygen were absorbed. The reaction mixture following the reaction period was poured into 200 milliliters of ice Water.
- a phenyl fi benzoylpropionitrile (235 g.,'1'mole), aziridine (172 g., 4 moles) and cupric acetate (4 g., 0.02 mole) are dispersed in 200 milliliters of dimethylsulfoxide.
- the resulting reaction mixture is heated at 70 C. for one hour.
- the reaction mixture is poured into ice water.
- the organic phase which forms during the dilution of the reaction mixture is separated and the low boiling constituents are removed by evaporation to obtain the -(1- aziridinyl) 3,5 diphenyl 3 pyrrolin 2 one product as a solid residue.
- 5 (1 aziridinyl)-3,5-diphenyl-3- pyrrolin 2 one melts at 166.5 to 167 C.
- Example 2 A three-necked, SOO-milliliter round bottom flask was charged with phenylsuccinonitrile (6.2 g., 0.040 mole) dissolved in 20 milliliters of methanol. The flask and con tents were cooled to 5 C. at which time a solution of cupric acetate 'monohydrate (16.0 g., 0.080 mole) in 80 milliliters of piperidine and 80 milliliters of methanol was added over a 45-minute period. Following the addition of the cupric acetate monohydrate solution, the reaction mixture was allowed to warm to C. and stirred for an additional 45 minutes.
- phenylsuccinonitrile 6.2 g., 0.040 mole
- reaction mixture and 800 milliliters of benzene were then added to 800 milliliters of ice and water whereupon the mixture separated into an aqueous phase and an organic phase.
- the organic phase was separated, dried and the benzene removed under vacuum at 50 C. to provide 6 grams (71% yield) of u phenyl 1 piperidine acrylonitrile product.
- This product upon recrystallization from 95% ethanol and then from a mixture of methanol and benzene was found to melt at 102.5 to 103 C.
- the new 3-(amine substituted)-2-phenylacrylonitriles and S-Substituted derivatives of 3,5-diphenyl-3-pyrrolin-2- one compounds of the present invention are useful for the control and kill of various insects, bacteria, fungi, terrestial plants and other pests such as snails, trash and fish.
- the unmodified compounds can be employed.
- the compound can be dispersed on an inert solid and the resulting product employed as the dust.
- the active compounds can be dispersed in water with or without the aid of a wetting agent, .andthe resulting aqueous dispersion employed as sprays, drenches or washes.
- the compound in oil or other solvents or as 'a constituent in solvent-in-water.or water-in-solvent emulsions or as aqueous dispersions thereof which can be. applied as a spray, drench or wash.
- 5-(1-aziridinyl)-3,5-diphenyl-3-pyrrolin-2-one gives substantially complete kill and control of Venturia inequalis (causative agent of apple scab) when applied as the sole active agent in a spray andin an amount sufficient toprovide 500 parts per million by weight of the spray composition.
- 3-(dimethylamino)-2-phenylacrylonitrile is added asthe sole fungicidal and bactericidal constituent to nutrient agar 'in an amountsufficient to provide'500 parts per million by weight of the agar.
- the agar is then solidified, inocculated with an appropriate organism and incubated under optimum growth conditions.
- 3- (dimethylamine)- 2-phenylacrylonitrile gives complete control and kill of Staphylococcus aureus, Bacillus subtilis 'Pullularia pullu- Inns and Salmonella typhosa.
- 3-(dimethylamino)-2-phenylacrylonitrile is employed as the sole active ingredient in a preemergent herbicide drench.
- the drench is added to the soil in an amount sufficient to provide 50 pounds per acre of the 3-(dimethylamino)-2-phenylacrylonitrile.,and the seeds planted in the treated soil.
- substantially complete killof seeds of pigweed and bindweed are obtained.
- Substantially complete kill of the insect plum curculio isobtained when the insert is sprayed withaliquid spray containing 2500 parts per million by weight of either 5- piperidine-3,S-diphenyl-S-pyrrolin-Z-one or a-phenyl-lpiperidineacrylonitrile as the sole toxic ingredient.
- the starting materials employed in the present invention are known compounds and are'produced in accordance with known synthesis procedures. In such known procedures, phenylacetonitrile derivatives corresponding to the formula 1 r a condensation product is treated with 'HCN to produce the nitrile'derivative.”
- a 3-(amine substituted)-2- phenylacrylonitrile corresponding to the formula wherein R represents hydrogen, alkyl of from 1 to 8 carbon atoms, phenyl, chloro or bromo, cyano, lower alkoxy or lower thioalkyl of from 1 to 4 carbon aotrns; Y represents lower alkyl or lower hydroxyalkyl of from 1 to 4 carbon atoms; Y represents hydrogen, lower alkyl or lower hydroxyalkyl of from 1 to 4 carbon atoms; or -N, Y and Y are joined to form aziridine azetidine, pyrrolidine or piperidine.
- a method of preparing the compound defined by claim 1 comprising reacting by contacting in liquid phase (a) a phenylacetonitrile derivative of the formula wherein R has the aforesaid meaning and Z is hydrogen or phenyl, with (b) a copper (-11) complex of a primary or secondary amine of the formula YNHY wherein Y and Y have the aforesaid meaning; said complex initially having at least 2 moles of amine per mole of copper (II).
- (b) is a copper (II) complex with aziridine, piperidine, dimethylamine, diethylamine, dipropylamine, dibutylarnine, methylamine, methylpropylamine, methylbutylamine, ethanolamine, propanolamine, butanolamine, methylethanolamine, azetidine or azolidine.
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Abstract
A NEW METHOD OF OXIDIZING VARIOUS PHENYLACETONITRILE DERIVATIVES EMPLOYING A COPPER (II)-AMINE CATALYST SYSTEM; AND THE NEW 3-(AMINE SUBSTITUTED)-2-PHENYLACRYLONITRILES AND 5-SUBSTITUTED DERIVATIVES OF 3, 5-DIPHENYL-3-PYRROLIN-2-ONE PREPARED BY THIS NEW METHOD.
Description
United States Patent O 3,679,671 OIHDATION F PHENYLACETONITRILE DERIVA- TIVES EMPLOYING A COPPER (ID-AMINE CATALYST SYSTEM Laurence I. Peterson, Framingham, Mass., assignor to The Dow Chemical Company, Midland, Mich. No Drawing. Filed Jan. 6, 1969, Ser. No. 789,378 Int. Cl. C07d 29/32 US. Cl. 260-240 D 13 Claims ABSTRACT OF THE DISCLOSURE A new method of oxidizing various phenylacetonitrile derivatives employing a copper (ID-amine catalyst system; and the new 3-(amine substituted)-2-phenylacrylonitriles and 5-substituted derivatives of 3,5-diphenyl-3-pyrrolin-2-one prepared by this new method.
BACKGROUND OF THE INVENTION The present invention is directed to a method of oxidizing various phenylacetonitrile derivatives. The new method utilizes a copper (ID-amine catalyst system with the oxidation being carried out under mild temperature and pressure conditions. Furthermore, the copper (II)- amine catalyst system catalyzes the highly specific oxidation of the starting materials to produce large yields of the desired product without attendant tar production. The copper (H) amine catalyst system utilized in the method of the present invention is soluble in many common organic solvents thus producing a homogeneous reaction system.
Further, when employing the method of the present invention, 2,3-diphenylsuccinonitrile is oxidized (dehydrogenated) to 2,3-diphenylfumaronitrile (yield greater than 70%). Since the precursor 2,3-diphenylsuccinonitrile is conveniently prepared by the condensation ofbenzaldehyde with phenylacetonitrile in the presence of cyanide ion, the production of 2,3-diphenylfumaronitrile from benzaldehyde and phenylacetonitrile can now be carried out much more efficiently than formerly possible. This new, highly efficient pathway to diphenylfumaronitrile, through the dehydrogenation of 2,3-diphenylsuccinonitrile, is significant, particularly in view of the statement of Coe et al., J. Chem. Soc., 1957, 123: Dehydrogenation of diphenylsuccinonitrile was not a practical approach to dicyanostilbene. The previous attempts to dehydrogenate diphenylsuccinonitrile resulted in low yields and large amounts of tar formation.
It is, therefore, readily apparent that the method of the present invention provides a highly specific method of oxidizing phenylacetonitrile derivatives under mild reaction conditions. Furthermore, the method of the present invention provides a new high yield synthesis for preparing new 3-(amine substituted)-2-phenylacrylonitriles and S-(amine substituted)3,5-diphenyl-3-pyrrolin-2-ones.
SUMMARY OF THE INVENTION The oxidation method of thepresent invention comprises reacting a phenylacetonitrile derivative with a copper (ID-amine catalyst system in a liquid reaction mixture. The oxidation takes place in an excess of a primary or secondary amine as reaction medium or in an inert organic solvent as reaction medium. The oxidation of the phenylacetonitrile derivatives is carried out at temperatures of between from 40 to 150 C. with temperatures between 20 and 80 C. being preferred.
3,679,671 Patented July 25, 1972 ice | ON N In the present specification and claims, R represents hydrogen, alkyl, phenyl, halo, cyano, nitro, lower alkoxy or lower thioalkyl and Z represents hydrogen, phenyl, substituted phenyl, benzoyl, or substituted benzoyl. As employed in the present specification and claims, alkyl refers to alkyl moieties having from 1 to 8 carbon atoms, inclusive; halo represents chlorine, bromine, fluorine or iodine; lower thioalkyl and lower alkoxy designate thioalkyl or alkoxy moieties having from 1 to 4 carbon atoms, inclusive; substituted phenyl designates a phenyl moiety bearing a substituent selected from the group defined by R and the term substituted benzoyl designates methylbenzoyl, halobenzoyl or nitrobenzoyl.
The copper (ID-amine catalyst system is a coordination complex formed by the cupric ion (Cu and a primary or secondary amine. The copper (II) component of the copper (ID-amine catalyst system is provided by elemental copper or by any copper salt wherein the copper ion is capable of assuming the copper (II) state and wherein the coordination between the copper (II) and the ligand or chelating agent is weak enough to allow the copper (II) to be reduced to copper (1). Thus, in addition to elemental copper and cupric salts, the copper (II) component of the copper (ID-amine catalyst system can be supplied by adding cuprous salts to the reaction mixture provided the cuprous ion can be oxidized to the copper (II) state by molecular oxygen or other oxygenating species.
The copper component is added to the reaction mixture in an amount suflicient to provide a catalytic amount of copper (II). In general, a catalytic amount of copper (II) is considered to be from about 1 to about 5 mole percent with respect to the phenylacetonitrile derivative. The amount of elemental copper or copper salt to be added to the reaction mixture in order to provide the catalytic amount of copper (II) will depend upon how much of the copper (I) produced as a result of the oxidation of the phenylacetonitrile derivatives can be air oxidized back to the copper (II) state. If no molecular oxygen or other oxidizing species is available in the reaction system to regenerate the copper (II), then the copper component will have to be added to the reaction mixture as a copper (II) containing species, i.e., a cupric salt, and in an amount sufficient to provide a substantially stoichiometric amount of copper (II). However, in those cases where the reac tion generates catalytic poisons such as CN, which prevent the regeneration of copper (H) by inhibiting the oxidation of copper (I) to copper (II), nearly stoichiometric amounts of copper are employed. The inhibiting effects of the CN ions are decreased by the addition of a CN scavenger such as ferric ion to the reaction mixture; when such a CN scavenger is employed, the amount of copper employed will range between a catalytic amount and a stoichiometric amount.
Representative copper salts include cupric acetate, cupric bromate, cupric bromide, cupric chlorate, cupric chloride, cupric fluoride, cupric formate, cupric nitrate, cupric phosphate, cupric sulfate, cupric tartrate, cuprous bromide, cuprous chloride, cuprous benzoate, cuprous acetate, cupric nitrate pentahydrate cupric stearate and the like.
The term amine as employed in the present specification and claims designates a primary or secondaryamine corresponding to the formula Y H N wherein Y represents lower alkyl or lower hydroxyalkyl and Y represents hydrogen, lower alkyl, or lower hydroxyalkyl and when'Y and Y are alkyl moieties they can be combined to produce a heterocyclic ring, i.e., a hydrogen is removed from each alkyl moiety thereby pro- 'ducing alkylene moieties which are joined to produce a heterocyclic ring with nitrogen as the hetero atom. The terms lower alkyl and lower hydroxyalkyl as employed in the present specification and claims, designate alkyl or hydroxyalkyl moieties containing from 1 to 4 carbon atoms, inclusive. Representative lower alkyl and lower hydroxyalkyl moieties include methyl, ethyl, propyl, butyl, hydroxymethyl, hydroxyethyl, Z-hydroxypropyl, 3-hydroxypropyl and hydroxybutyl.
The primary or secondary amine is employed in an amount equivalent to at least twice the molar amount of copper employed. The use of the amine in amounts materially less than 2 molar proportions results in very slow oxidation of the phenylacetonitrile derivatives or in the formation of a heterogeneous reaction mixture. The cupric ion in its most favorable coordination state (square planar) prefers coordination to four amine ligands and it is, therefore, preferred that the amine be present in molar amounts equivalent to at least 4 times the amount of cupric ion. In a convenient procedure, the primary or secondary amine is employed in an amount equivalent to from 4 to 10 times greater than the theoretical maximum amount of cupric ion available, i.e., all copper in the copper (H) state. The use of the amine in amounts greater than 10 times the molar amount of cupric ion does not adversely affect the desired product or the yield obtained; however, such large excesses are generally uneconomical. Representative amines include aziridine, 'piperidine, dibutylamine, methylethylamine, methyl'butylamine, diethylamine, propanolamine, ethanolamine, methylethanolamine, pyrrolidine', and dipropylamine.
In carrying out the method of the present invention,
the phenylacetonitrile derivative, copper and primary or secondary amine are contacted together in any-order The reaction is carried out in a liquid environment comprised of an excess of the primary or secondary amine or a mixture of the primary or secondary amine and an inert or- 'ganic liquid. Representative organic liquids suitable as v reaction media include benzene, methanol, dimethylformamide, dimethylsulfoxide, chlorobenzene, and n-hexane. It is convenient and generally preferred that the reaction mixture be agitated in order to increase the rate of contact of the reactants and to increase the air oxidative regeneration of the copper (H) ions. The agitation of the reaction mixture can be achieved by any convenient pro,- cedure such as stirring, bubbling oxygen or air through the reaction mixture and the like. Following the contacting of the reactants, the temperature of the reaction mixture is maintained within the reaction temperature. range product are obtained by conducting the reaction under atmospheric pressure (760 mm. of Hg). However, increasing the pressure above atmospheric pressure has a favorable efiect on the rate of the reaction.
Following the reaction period, the desired product is isolated from the, reaction mixture by conventional isolation procedures. In a convenient procedure, an inert organic solventisvadded to the reaction mixture and the diluted mixture further diluted with water. Upon Qdilu tion with water, the mixture separates into an organic and an aqueous phase. The organic phase contains the product and the aqueous phase contains copper hydroxide which has formed during the dilution proc :edu 1 e It is convenient to acidify the aqueous phase in order to dissolve. the copper hydroxide before separating theorganic and aqueous phases. The organic and aqueous phases are then separated and the organic phase is stripped in vacuo to remove the low boiling constituents and obtain the desired product as a solid residue. a
The new 3-(amine substituted)2-phenylacrylonitriles of the present invention correspond to the formula:
with R, Y and Y being selected from the groupsas previously defined. These new 3-('amine substituted) -2phen ylacrylonitriles are generally crystalline solids which are insoluble in water and are soluble in' various'comrnon organic solvents such as benzene, diethyletheriand chidroform. The 3-(amine substituted)'-2-phenylacrylonitriles are useful as pesticides for the kill and control of various pests such as fungi, bacteria, snails, trash fish, insects and terrestial plants, including Bacillus subtilis, Pullz'tlaria pullular'rs, Salmonella typhosa, pigweeds, plumcurc'ulio, bindweeds and gold fish. The new S-(amine substituted)-2-phenylacrylonitrile compounds are prepared in accordance with the new method of the present invention. In said method, elemental copper or a copper salt as previously described and the amine are admixed with aphenylacetonitrile derivative corresponding to the formula:
The phenylacetonitrile, amine and copper starting materials are dispersed in an inertorganic liquid reaction media or in an excess of the amine as reaction medium. Nearly stoichiometric amounts of copper or copper salt are employed with respect to the phenylacetonitrile starting material. The use of such large" amounts of copper salt is recommended because the catalytic poison, CN, is produced as a reaction by-product. Asprevious lystated, this catalytic poison inhibits-the reoxygenation of the copper ('1) species to copper (II); thus a small amount of copper (II) will not be sufii'cient. to catalyze the oxidation of the phenylacetonitrile starting material. However, if a CN scavenger is employed, substantially less than a stoichiometric amount of, copper or copper salt can be employed without adversely afiecting the yield of the desired product. Followingthe contacting of the phenylacetonitrilederivative, amine and copper (II), the reaction is carried out in, accordance with the method of the present invention with the=;3-(amine substituted)2phenylacrylonitrile product. being separated from the reactionmixture as previously' desc1ibed.=-
It is believed that the reaction proceeds in conformance with the following schematic representation.
W V a. a.
lo (in-on.
Representative 3-(amine substituted)-2-phenylacrylonitrile products include wherein .R, Y and Y are all selected from the group as previously defined. R as employed in the present specification and claims represents methyl, halo and nitro. These new S-(amine substituted)-3,5-diphenyl-3- pyrrolin-Z-ones are crystalline solidsand are insoluble in water and soluble in common organic solvents such as chlorobenzene, methylene chloride and acetone. The S-(amine substituted)-3,5-diphenyl-3pyrrolin-2-ones are useful as pesticides for the kill andcontrol of various bacteria and fungi including lettuce, 'downy mildew, plum curculio, apple scab and tomato late blight.
The 5 (amine substituted)-3,5=diphenyl-3-pyrrolin- 2-one compounds are prepared 'by oxidizing a phenylacetonitrile derivative corresponding to the formula O C H-CHrwherein -R and 'R are as previously defined. The phenylacetonitrile derivative and the copper are, as in the previous cases, dispersed with the amine in an inert organic solvent as reaction media or in an excess of the amine as reaction media. In view of the fact that no catalytic poison is generated during the production of the S-(amine substituted)-3,5-diphenyl-3-pyrrolin-2- one product, the copper can be added in an amount suflicient to provide from about 1 to about 5 mole percent of copper (II), i.e., when all of the copper is in the copper (II) state, the amount of copper (II) will be equivalent to from about 1 to about 5 mole percent of the phenylacetonitrile starting material. The reaction is then carried out and the product is isolated in accordance with the methods previously described. The 5 -(ar'niu'e substituted)-3,5-diphenyl-3-pyrrolin-2-one product can then be employed in pesticidal applications or further purified by conventional purification techniques before being so employed. Representative S-(amine substituted)- 3,S-diphenyl-3-pyrrolin-2-ones include 5- (diethylamine -3- (4-nitrophenyl) -5-phenyl-3- pyrrolin-Z-one;
5- methylhexylamine -3- 2-chlorophenyl) -5- (4-iodophenyl)-3-pyrrolin-2-one;
5- (dipropylamine) -3- (3-butylphenyl-5-phenyl-3-pyrrolin-2-one;
5- azetidinyl-3- (4-ethoxyphenyl) -5-phenyl-3 -pyrrolin- 2-one;
5- (azolidinyl) -3- 4- ethylthiophenyl) -5 -phenyl-3 -pyrrolin-Z-one;
5- dimethylarnine) -3- (4-bromophenyl) -5-phenyl-3- pyrrolin-Z-one;
5 (hexylamine) -3- (3-n-butylthiophenyl) -5- (4-fluorophenyl -3-pyrrolin-2-one;
5- diethylamine -3,5-di (4-cyanophenyl) -3-pyrrolin- 2-one;
5- dipropylamine) -3,5-di (4-nitrophenyl) -3-pyrrolin- 2-one 5- (hydroxybutylethylamine -3- (3-cyanophenyl) -5- phenyl-3-pyrrolin-2-one;
5- dimethylarnine) -3-biphenyl-5- 4-nitrophenyl -3- pyrrolin-Lone;
5-piperidine-3- (4-butylphenyl) -5- (3-iodophenyl) -3- pyrrolin-Z-one.
Furthermore, the new method of the present invention can be employed to oxidize 2,3-diphenylsuccinonitrile to 2,3-diphenylfumaronitrile. The quantities of starting materials and the reaction procedure are all as previously described.
SPECIFIC EMBODIMENTS The following specific examples are illustrative of the present invention; however, they are not deemed to be limiting.
Example 1 A solution of a phenyl B benzoylpropionitrile (4.7 g., 0.020 mole) in 15 milliliters of piperidine was injected with a syringe through a rubber septum into a sealed flask containing cuprous chloride (0.15 g., 0.0015 mole) in 10 milliliters of piperidine under oxygen at 760 mm. pressure. The reaction mixture was stirred and maintained at a temperature of 24.5 C. for two hours. During this two-hour period, stirring was continued for an additional 1% hours. During the entire 3.75-hour reaction period, 520 milliliters of oxygen were absorbed. The reaction mixture following the reaction period was poured into 200 milliliters of ice Water. Upon pouring the reaction mixture into ice water, a yellow solid precipitated in the diluted mixture. This yellow solid precipitate was extracted into benzene and the benzene extraction liquid stripped under vacuum to give 5 grams of-5-piperidine-3,5-diphenyl-3-pyrrolin-2- one. This product upon recrystallization from benzene melted at 167 to 168 C. (yield 79% In further operations, a phenyl B benzoylpropionitrile.(0.5 mole), dimethylamine (4 moles) and enprous chloride (0.25 mole) are reacted together at 0 C. and under-oxygen at a pressure of 1500 mm. of mercury for a period .of five hours to prepare the S-(dimethylamine) 3,5 diphenyl 3 pyrrolin 2 one product. 5 (dimethylamine 3,5 diphenyl 3 pyrrolin-Z-one melts at 128 to 129.5 C.
In still further operations, a phenyl fi benzoylpropionitrile (235 g.,'1'mole), aziridine (172 g., 4 moles) and cupric acetate (4 g., 0.02 mole) are dispersed in 200 milliliters of dimethylsulfoxide. The resulting reaction mixture is heated at 70 C. for one hour. Following the reaction period the reaction mixture is poured into ice water. The organic phase which forms during the dilution of the reaction mixture is separated and the low boiling constituents are removed by evaporation to obtain the -(1- aziridinyl) 3,5 diphenyl 3 pyrrolin 2 one product as a solid residue. 5 (1 aziridinyl)-3,5-diphenyl-3- pyrrolin 2 one melts at 166.5 to 167 C. j
Example 2 A three-necked, SOO-milliliter round bottom flask was charged with phenylsuccinonitrile (6.2 g., 0.040 mole) dissolved in 20 milliliters of methanol. The flask and con tents were cooled to 5 C. at which time a solution of cupric acetate 'monohydrate (16.0 g., 0.080 mole) in 80 milliliters of piperidine and 80 milliliters of methanol was added over a 45-minute period. Following the addition of the cupric acetate monohydrate solution, the reaction mixture was allowed to warm to C. and stirred for an additional 45 minutes. The reaction mixture and 800 milliliters of benzene were then added to 800 milliliters of ice and water whereupon the mixture separated into an aqueous phase and an organic phase. The organic phase was separated, dried and the benzene removed under vacuum at 50 C. to provide 6 grams (71% yield) of u phenyl 1 piperidine acrylonitrile product. This product upon recrystallization from 95% ethanol and then from a mixture of methanol and benzene was found to melt at 102.5 to 103 C. i 7 Y In a further example, dimethylamine was substituted for piperidine to produce the 2 phenyl 3-dimethylaminoacrylonitrile product which upon recrystallization from methanol benzene (511) was found to melt at 79=-to 80 C.
In further operations the following compounds are prepared in accordance with the method of the present invention:
e- Phenyl 1 aziridinylacrylonitrile (molecular weight 170.1) by reacting together phenylsuccinonitrile, cupric bromide and ethyleneimine under N at 100 C. for one hour.
2 (4 bromophenyl) 3 (methylpropylamine)- acrylonitrile (molecular weight 279.1) by reacting 2-(4- bromophenyl)-succinonitrile and methylpropylamine with cuprous chloride as catalyst.
2 (3 octylphenyl) 3-hydroxybuty1aminoacrylonitrile (molecular weight 327.4) by reacting 2-(3-octylphenyl)- 'silccinonitrile and butanolamine with cupricnitr ate pentahydrate as catalyst. 2 (4 ethoxyphenyl) (molecular weight 228.2) by reacting 2-(4-ethoxyphenyl): succinonitrileand azetidine with cupric acetate'm'onohydrate as catalyst. I 1
5 (dieth'ylamine) 3 (3 bromophenyl) 5 phenyl- 3 pyrrolin 2 one (molecular weight 386.2) by r'eac ting a-(3-bromophenyl) B benzoylpropionitrile and diethylamine with cupric bromate' as catalyst. l 5: (azolidinyl) 3 (4 butoxyphenyl) -5-phenyl-3- pyrroIin-Z-one (molecular weight 376.4) by reactingu -(4' butoxyphenyl)-fl-benzoylpropionitrile and azolidine with cupric acetate monohydrate as catalyst. I l 5 piperidine 3-, (3 ethylphenyl) -5 phenyl-3- 'pyrrolin 2 one (molecularweight 346.4) b'y'reacting piperidine and a. (3 ethylphenyl) p benzoylpropionit'rile with cuprous bromide as catalyst. l 5 -"dimethylamino 3 phenyl 5 (4 methylphenyl)- 3 pyrr olin 2 one (molecular weight 292.3 byreacting dimethylamine and a phenyl B (4 methylbenzoyl)- propionitrile with cupric salicylate as catalyst.
, p Example 3 2,3 diphenylsuccinonitrile (23.2 g.) was added with stirring to a solution of cupric acetate monohydrate (1.0 g.) and piperidine (10 ml.) in 150 milliliters of dimethylsulfoxide. Following the addition of the 2,3-diphenylsuccinonitrile to the reaction mixture, stirring was continued and air bubbled through the mixture for a periodof about 14 hours duringwhich time the temperature ofjthe reaction mixture remained at about room teniperatiire; At the 3'- azetidinylacrylonitrile conclusion ofthereaction period, the reaction mixture was diluted with 800 milliliters. of .water and the pH brought to about 1 by the addition of dilute hydrochloric acid. Theacidic reaction mixture was then filtered to remove the desired solid 2,3 diphenylfumaronitrile product (melting point 161 to 162 C.). The fumaronitrile product was obtained in a 97% yield. I
The new 3-(amine substituted)-2-phenylacrylonitriles and S-Substituted derivatives of 3,5-diphenyl-3-pyrrolin-2- one compounds of the present invention are useful for the control and kill of various insects, bacteria, fungi, terrestial plants and other pests such as snails, trash and fish. For such use, the unmodified compounds can be employed. Alternatively, the compound can be dispersed on an inert solid and the resulting product employed as the dust. In addition, the active compounds can be dispersed in water with or without the aid of a wetting agent, .andthe resulting aqueous dispersion employed as sprays, drenches or washes. In other procedures, the compound can be employed in oil or other solvents or as 'a constituent in solvent-in-water.or water-in-solvent emulsions or as aqueous dispersions thereof which can be. applied as a spray, drench or wash. I
In representative operations, 5-(1-aziridinyl)-3,5-diphenyl-3-pyrrolin-2-one gives substantially complete kill and control of Venturia inequalis (causative agent of apple scab) when applied as the sole active agent in a spray andin an amount sufficient toprovide 500 parts per million by weight of the spray composition.
In further operations, 3-(dimethylamino)-2-phenylacrylonitrile is added asthe sole fungicidal and bactericidal constituent to nutrient agar 'in an amountsufficient to provide'500 parts per million by weight of the agar. The agar is then solidified, inocculated with an appropriate organism and incubated under optimum growth conditions. As a result of such operations, 3- (dimethylamine)- 2-phenylacrylonitrile gives complete control and kill of Staphylococcus aureus, Bacillus subtilis 'Pullularia pullu- Inns and Salmonella typhosa.
In other operations; 3-(dimethylamino)-2-phenylacrylonitrile is employed as the sole active ingredient in a preemergent herbicide drench. The drench is added to the soil in an amount sufficient to provide 50 pounds per acre of the 3-(dimethylamino)-2-phenylacrylonitrile.,and the seeds planted in the treated soil. As a result of ,such operations, substantially complete killof seeds of pigweed and bindweed are obtained. a In still further operations, a-phenyl-l-piperidineacrylm nitrile-gives substantially complete'kill of rams horn snails .whenadded to their aqueous environment in an amount snfficient to provide 1000 parts per million-by vweight of the a-phenyl-l-piperidineacrylonitrile as the. sole toxic constituent. a
Substantially complete kill of the insect plum curculio isobtained when the insert is sprayed withaliquid spray containing 2500 parts per million by weight of either 5- piperidine-3,S-diphenyl-S-pyrrolin-Z-one or a-phenyl-lpiperidineacrylonitrile as the sole toxic ingredient.
The starting materials employed in the present invention are known compounds and are'produced in accordance with known synthesis procedures. In such known procedures, phenylacetonitrile derivatives corresponding to the formula 1 r a condensation product is treated with 'HCN to produce the nitrile'derivative."
9 I claim: 1. A 3-(amine substituted)-2- phenylacrylonitrile corresponding to the formula wherein R represents hydrogen, alkyl of from 1 to 8 carbon atoms, phenyl, chloro or bromo, cyano, lower alkoxy or lower thioalkyl of from 1 to 4 carbon aotrns; Y represents lower alkyl or lower hydroxyalkyl of from 1 to 4 carbon atoms; Y represents hydrogen, lower alkyl or lower hydroxyalkyl of from 1 to 4 carbon atoms; or -N, Y and Y are joined to form aziridine azetidine, pyrrolidine or piperidine.
2. The compound defined in claim 1 wherein said 3- (amine substituted)-2-phenylacrylonitrile is B-(dimethylamino)Q-phenylacrylonitrile or u-phenyl-l-piperidinoacrylonitrile.
3. A method of preparing the compound defined by claim 1 comprising reacting by contacting in liquid phase (a) a phenylacetonitrile derivative of the formula wherein R has the aforesaid meaning and Z is hydrogen or phenyl, with (b) a copper (-11) complex of a primary or secondary amine of the formula YNHY wherein Y and Y have the aforesaid meaning; said complex initially having at least 2 moles of amine per mole of copper (II).
4. The method claimed in claim 1 wherein the phenylacetonitrile derivative is Z-phenylsuccinonitrile and the secondary amine is dimethylamine.
5. The method claimed in claim 3 wherein the phenylacetonitrile derivative is 2-ephenylsuccinonitrile 2,3-diphenylsuccinonitrile.
6. The method defined by claim 3 wherein at least 4 moles of amine are initially present per mole of copper (II).
7. The method defined by claim 3 wherein said method is conducted at a temperature of from C. to 150 C.
8. The method defined by claim 7 wherein said temperature is from 20 C. to C.
9. The method defined by claim 3 wherein said method is conducted in the presence of a -CN scavenger.
10. The method defined by claim 9 wherein said scavenger is ferric ion.
11. The method defined by claim 3 wherein (a) is 2,3- diphenylsuccinonitrile, 2-phenylsuccinonitrile, 2-(4-bromophenyl)succinonitrile, 2-(3-octylphenyl)succinonitrile, 2- (4-ethoxyphenyl) succinonitrile.
12. The method defined by claim 11 wherein (b) is a copper (II) complex with aziridine, piperidine, dimethylamine, diethylamine, dipropylamine, dibutylarnine, methylamine, methylpropylamine, methylbutylamine, ethanolamine, propanolamine, butanolamine, methylethanolamine, azetidine or azolidine.
13. The method defined by claim 3 wherein air or oxygen is added to the reaction mixture.
HENRY R. JILES, Primary Examiner G. T. TODD, Assistant Examiner U.S. C1. X.R.
260293.71, 326.5 S, 326.5 FL, 465 E; 424-244, 267, 274, 304
Applications Claiming Priority (2)
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US78937869A | 1969-01-06 | 1969-01-06 | |
US25465472A | 1972-05-18 | 1972-05-18 |
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US3679671A true US3679671A (en) | 1972-07-25 |
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US789378A Expired - Lifetime US3679671A (en) | 1969-01-06 | 1969-01-06 | Oxidation of phenylacetonitrile derivatives employing a copper (ii)-amine catalyst system |
US00254654A Expired - Lifetime US3793343A (en) | 1969-01-06 | 1972-05-18 | 5-amino-3,5-diphenyl-3-pyrrolin-2-ones |
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US00254654A Expired - Lifetime US3793343A (en) | 1969-01-06 | 1972-05-18 | 5-amino-3,5-diphenyl-3-pyrrolin-2-ones |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4894472A (en) * | 1988-03-21 | 1990-01-16 | Miles Inc. | Dicyanoethylaryl derivatives and process for their preparation |
CN104892408A (en) * | 2015-05-21 | 2015-09-09 | 湖南大学 | Synthetic method of benzoate compound |
-
1969
- 1969-01-06 US US789378A patent/US3679671A/en not_active Expired - Lifetime
-
1972
- 1972-05-18 US US00254654A patent/US3793343A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4894472A (en) * | 1988-03-21 | 1990-01-16 | Miles Inc. | Dicyanoethylaryl derivatives and process for their preparation |
CN104892408A (en) * | 2015-05-21 | 2015-09-09 | 湖南大学 | Synthetic method of benzoate compound |
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US3793343A (en) | 1974-02-19 |
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